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Journal Abstract Search

169 related items for PubMed ID: 37688886

  • 1. A reaction-based carbazole-dicyanovinyl conjugated colorimetric and ratiometric fluorescent probe for selective detection of cyanide ions.
    Battal A, Kassa SB, Altinolcek Gultekin N, Tavasli M, Onganer Y.
    Spectrochim Acta A Mol Biomol Spectrosc; 2024 Jan 05; 304():123350. PubMed ID: 37688886
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  • 2. A reaction based carbazole-indolium conjugate probe for the selective detection of environmentally toxic ions.
    Palanisamy J, Gatasheh MK, Hatamleh AA.
    Anal Methods; 2024 May 09; 16(18):2869-2877. PubMed ID: 38639075
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  • 3. A new colorimetric and ratiometric fluorescent probe for selective recognition of cyanide in aqueous media.
    Dong ZM, Ren H, Wang JN, Chao JB, Wang Y.
    Spectrochim Acta A Mol Biomol Spectrosc; 2019 Jun 15; 217():27-34. PubMed ID: 30925317
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  • 4. Ratiometric detection and monitoring of cyanide in biological, environmental and food samples by a novel triphenylamine-xhantane based fluorescent probe.
    Sert A, Erdemir S, Malkondu S.
    Anal Chim Acta; 2024 Sep 01; 1320():343000. PubMed ID: 39142780
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  • 8. A Coumarin-Hemicyanine Deep Red Dye with a Large Stokes Shift for the Fluorescence Detection and Naked-Eye Recognition of Cyanide.
    Li D, Peng S, Zhou X, Shen L, Yang X, Xu H, Redshaw C, Zhang C, Zhang Q.
    Molecules; 2024 Jan 27; 29(3):. PubMed ID: 38338363
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  • 10. A Turn-On Fluorescent Chemosensor for Cyanide Ion Detection in Real Water Samples.
    Shi Q, Wu ST, Shen L, Zhou T, Xu H, Wang ZY, Yang XJ, Huang YL, Zhang QL.
    Front Chem; 2022 Jan 27; 10():923149. PubMed ID: 35923259
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  • 12. A Biocompatible Colorimetric Triphenylamine- Dicyanovinyl Conjugated Fluorescent Probe for Selective and Sensitive Detection of Cyanide Ion in Aqueous Media and Living Cells.
    Zheng ZH, Li ZK, Song LJ, Wang QW, Huang QF, Yang L.
    Sensors (Basel); 2017 Feb 19; 17(2):. PubMed ID: 28218723
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  • 13. Cyanide chemosensors based on 3-dicyanovinylpyrazolo[1,5-a]pyrimidines: Effects of peripheral 4-anisyl group substitution on the photophysical properties.
    Tigreros A, Castillo JC, Portilla J.
    Talanta; 2020 Aug 01; 215():120905. PubMed ID: 32312450
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  • 14. A benzothiazole-based new fluorogenic chemosensor for the detection of CN- and its real-time application in environmental water samples and living cells.
    Jothi D, Munusamy S, Manoj Kumar S, Enbanathan S, Kulathu Iyer S.
    RSC Adv; 2022 Mar 15; 12(14):8570-8577. PubMed ID: 35424806
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  • 15. Synthesis of Dicyanovinyl-Substituted 1-(2-Pyridyl)pyrazoles: Design of a Fluorescent Chemosensor for Selective Recognition of Cyanide.
    Orrego-Hernández J, Portilla J.
    J Org Chem; 2017 Dec 15; 82(24):13376-13385. PubMed ID: 29171269
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  • 17. A Highly Selective Turn-on Fluorescent and Naked-eye Colourimetric Dual-channel Probe for Cyanide Anions Detection in Water Samples.
    Wu Y, Ding WM, Li J, Guo G, Zhang SZ, Jia HR, Sun YX.
    J Fluoresc; 2021 Mar 15; 31(2):437-446. PubMed ID: 33410088
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  • 18. Spectroscopic and Theoretical Studies on the Selective Detection of Cyanide Ions by a Turn-On Fluorescent Chemo-Dosimeter and its Application in Living Cell Imaging.
    Kalavathi A, Satheeshkumar K, Dharaniprabha V, Vennila KN, Elango KP.
    J Fluoresc; 2023 Nov 27. PubMed ID: 38008863
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  • 19. Naphthalenediimide-based nanoarchitectonics for a fluorescent chemosensor with highly selective and sensitive detection of cyanide ions.
    Gawade VK, Jadhav RW, Chari VR, Hangarge RV, Bhosale SV.
    Anal Methods; 2023 Aug 03; 15(30):3727-3734. PubMed ID: 37482761
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